Paper feeder with a pair of blowing units
This paper feeder brings the uppermost paper sheet of a plurality of stacked paper sheets into contact with paper feed rollers and feeds out the paper sheet in a paper feeding direction by the drive thereof. Side fences for guiding both side edges of the paper sheet on a paper feeding table are provided with a pair of blowing units for blowing air to both side edges of the paper sheet, whose air quantity can be controlled independently of each other. When skewing occurs, the blowing units are controlled to blow a larger quantity of air to the paper side edge having larger friction against a lower paper sheet as compared with the quantity of air to the other paper side edge. In paper feeding, problems such as skewing, multi-feeding and idle feeding can be addressed.
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The present application is based on, and claims priority from Japanese Application No. 2010-188530, filed Aug. 25, 2010, the disclosure of which is hereby incorporated by reference herein in its entirety.
BACKGROUND1. Technical Field
This invention relates to a paper feeder, which is provided as a paper feeding mechanism of an image forming apparatus, for example, and sequentially feeds a number of stacked paper sheets from the top using a paper feed roller, and particularly to the paper feeder, which may surely feed paper sheets one by one without skewing, idle feeding and multi-feeding regardless of the kind of a paper sheet.
2. Description of the Related Art
As a paper feeder for supplying a paper sheet to an image forming apparatus or the like, for example, a known paper feeder is configured so that a number of paper sheets are loaded on a table, the upper most paper sheet is brought into contact with a paper feed roller from below, and the paper sheets are sequentially fed out from the top paper sheet first by the drive of the paper feed roller. In this type of paper feeder, as the height of stacked paper sheets is decreased with feeding out of the paper sheets, the table is elevated to keep the contact between the uppermost paper sheet and the paper feed roller. The paper feeders disclosed in the respective patent literatures described in the following show examples of this type of paper feeder.
JP-A No. 2005-314094 discloses a paper feeder, which efficiently blows out the air to a recording paper sheet with pressure loss of the air held down to thereby simply separate the closely contacting recording paper sheets from each other. In this paper feeder, the position in the right-angled direction to the feeding direction of the recording paper sheet P does not overlap a retard roll 72, and a duct 90 is disposed to overlap the retard roll 72 when viewed in the right-angled direction to the feeding direction of the recording paper sheet P. Thus, the air generated by a blower 94 is blown out to the edge part in the feeding direction of the recording paper sheet P, and the recording paper sheets P fed out from a paper feed tray 44 by a nudger roll 68 are separated by the retard roll 72. The retard roll 72 does not constitute an obstacle so that the duct 90 can be shaped to decrease pressure loss. Therefore, the air enough to release the close contact of the recording paper sheets P is blown out from the duct 90 without using a blower 94 and a fan having a large capacity.
JP-A No. H11-349165 discloses a paper feeder, in which an air current is controlled by an air blowing unit according to the kind of a paper sheet to surely feed paper sheets one by one. This paper feeder includes a paper feed tray 10 on which sheets 23 are piled, a paper feeding unit 2 for feeding the sheets 23 piled on the paper feed tray 10, a push-up unit for pushing up the sheets 23 piled on the paper feed tray 10 by the paper feeding unit 2 towards the height at which the sheets are fed out, a blowing port 21 opened to blow an air current to the side of the sheets 23 pushed up by the push-up unit, a blowing unit 20 for blowing a continuous air current from the blowing port 21, and a blowing position setting unit for setting the air blowing position according to the kind of the sheet 23.
Although the paper feeders described in JP-A Nos. 2005-314094 and H11-349165 are common in that paper sheets in a stack are separated from each other by an air blow and fed out, it is impossible to adjust the quantity of supplied air depending on place such as the right and the left of a paper sheet. Therefore, it is impossible to supply the air quantity adjusted at every required position of the paper sheet according to the state of the loaded paper sheets, resulting in the problem that troubles in paper feeding such as skewing, multi-feeding and idle feeding cannot always be addressed.
This invention has been made in the light of the above circumstances to accurately address the problems in paper feeding such as skewing, multi-feeding and idle feeding by adjusting the quantity of air supplied for every place such as the right and the left of a paper sheet to supply the quantity of air suitable for a required position of the paper sheet according to the state of loaded paper sheets.
SUMMARY OF INVENTIONAccording to one aspect of the invention, a paper feeder includes: a paper feed table on which paper sheets are stacked; a paper feed roller, which is provided at a predetermined position above the paper feed table and driven in contact with an upper surface of the uppermost paper sheet of paper sheets stacked on the paper feed table to feed the uppermost paper sheet in a paper feeding direction; and a pair of blowing units, which are provided along a paper width direction, and controlled independently of each other to blow air below the uppermost paper sheet.
According to a second aspect of the invention, the paper feeder in accordance with the one aspect further includes: a pair of paper detecting units, which are provided on a downstream side in the paper feeding direction with respect to the paper feed roller to respectively detect both end parts in the paper width direction of the paper sheet fed out in the paper feeding direction, wherein the pair of blowing units is controlled to be different in air quantity based on a difference in paper detection timing between the pair of paper detecting units.
According to a third aspect of the invention, the paper feeder in accordance with the one aspect further includes: a pair of paper detecting units, which are provided on the downstream side in the paper feeding direction with respect to the paper feed roller to respectively detect both end parts in the paper width direction of the paper sheet fed out in the paper feeding direction, wherein the pair of blowing units is controlled to be different in air direction based on a difference in paper detection timing between the pair of paper detecting units to correct skewing of the fed-out paper sheet.
According to a fourth aspect of the invention, the paper feeder in accordance with the first aspect or the second aspect includes: a transmission type paper detecting unit provided on the downstream side of the paper feed roller as the paper detecting unit, wherein an air quantity of the pair of blowing units is increased based on a light receiving quantity of the transmission type paper detecting unit to control at least one of paper multi-feeding and idle feeding to be corrected.
In the paper feeder in accordance with the one aspect, when the paper sheet is fed out in the paper feeding direction by the paper feed roller, although the paper sheets are often skewed, multi-fed or idle-fed due to the mutual close contact state of paper sheets or the other causes, the blowing units that make a pair disposed along the paper width direction are controlled independently of each other according to the paper feeding status of the paper sheets so that the paper feeding state can be improved to perform normal paper feeding.
In the paper feeder in accordance with the second aspect, the paper detecting units that make a pair are disposed on the downstream side of the paper feed roller. The paper detecting units are capable of respectively detecting both end parts in the paper width direction of the paper sheet fed out in the paper feeding direction, so skewing of the paper sheet is found from a difference in detection timing. Then, the blowing units that make a pair are controlled to be different in air quantity based on a difference in paper detection timing between the paper detecting units, thereby correcting skewing of the fed-out paper sheet most suitably according to the degree.
In the paper feeder in accordance with the third aspect, the paper detecting units that make a pair are disposed on the downstream side of the paper feed roller. The paper detecting units are capable of respectively detecting both end parts in the paper width direction of the paper sheet fed out in the paper feeding direction, so skewing of the paper sheet is found from a difference in detecting timing. Then, the blowing units that make a pair are controlled to be different in air direction based on a difference in paper detecting timing between the paper detecting units that make a pair, and a force in the rotating direction is exerted on the paper sheet, thereby correcting skewing of the fed-out paper sheet most suitably according to the degree.
In the paper feeder according to the fourth aspect, the transmission type paper detecting unit, which is decreased in light receiving quantity when a paper sheet passes, is disposed as the paper detecting unit on the downstream side of the paper feed roller. Therefore, when the light receiving quantity of the transmission type paper detecting unit, which is obtained as an output signal of the transmission type paper detecting unit in paper feeding, decreases as compared with that in the normal case, multi-feeding in which paper sheets are fed in a multi-layer is determined. On the other hand, when the light receiving quantity of the transmission type paper detecting unit does not decrease at all, idle feeding in which no paper sheet is fed is determined. Therefore, when the air quantity of the blowing units that make a pair is increased based on the output of the transmission type paper detecting units, multi-feeding of paper sheets and idle feeding can be corrected most suitably according to the degree.
According to the present embodiment, a paper feeder 1 improves paper feeding failure such as multi-feeding by blowing the air to loaded paper sheets by a blowing unit 2 capable of freely adjusting the air direction and the air quantity, and the following description deals with the general configuration, the adjustment and settings for the air quantity and the air direction of the blowing unit 2; the occurrence of error and correction method in the operating state, and the whole control procedure by each heading.
1. General Configuration (
The paper feeder 1 in accordance with the embodiment is provided as a paper supply unit in an apparatus for processing a supplied paper sheet for a predetermined purpose, for example, an image forming apparatus such as a printing apparatus, which is adapted to form an image on a supplied paper sheet.
As shown in
As shown in
As shown in
As shown in
A blow-out port of each blowing unit 2 is connected and communicated with a hole formed at the same position of each side fence 8 through a duct 9. Therefore, the blowing units 2, 2 are respectively capable of blowing the air currents in the air direction orthogonal to the side fences 8, 8 and opposite to each other toward the insides of the side fences 8, 8. Although
Not being shown in details in
Regarding the center line parallel to the carrying direction of the paper sheet P, that is, the longitudinal center line bisecting the width direction of the paper sheet P, it is possible to say that the blowing units 2 are provided right and left in a pair, but when the paper feeder 1 is seen from an angle of its installation state, it is possible to say that the units are provided on the front side (F side) and the rear side (R side) of the paper feeder 1 in a pair. This means that when the paper feeder 1 is seen on the whole, the paper feed table 3 is usually mounted on one side surface of the feeder body, the front side of the feeder corresponds to the right side, and the rear side of the feeder corresponds to the left side.
Generally in the paper feeder 1, when the paper sheet P is fed out in the paper feeding direction by the paper feeding unit 6, there is the possibility of causing troubles in paper feeding such as skewing, multi-feeding and idle feeding of the paper sheets P due to the mutual close contact state of the paper sheets P, unevenness of friction generated between the superposed paper sheets depending on places and other causes. In the paper feeder 1 according to the present embodiment, details to be mentioned later, as shown conceptually in
As the trouble detecting unit, as shown in
When the transmission type paper detecting units 13 detect the fed paper sheet P at the same time, the paper sheet P is determined to be fed normally, and when one of the units detects the paper sheet P earlier than the other, the paper sheet P is determined to skew. In that case, there is a difference in detection timing, and when the difference is smaller than a predetermined value, it is determined to be skewing. When the difference in detection timing is a value equal to or larger than the predetermined value, it is determined to be serious skewing. Further, when the transmission type paper detecting units 13 do not detect the paper sheet P in the preset timing of detecting the paper sheet P, it is determined to be idle feeding. Further, when the light received through the paper sheet P by the transmission type paper detecting units 13 is weaker than usual in the preset timing of detecting the paper sheet P, it is determined to be multi-feeding. How to control the air quantity and air direction of the blowing units 2 at the occurrence of these troubles will be mentioned later.
As the paper kind detecting unit, mode information and select paper information selected by a user's switching operation on a console panel (not shown) of the paper feeder 1 may be used, or as shown in
2. Adjustment for Air Quantity and Air Direction of Blowing Unit and Setting Range (
It is considered that skewing of the paper sheet P is caused by a difference in sticking state or resistance cause such as coefficient of friction from a second paper sheet P located under the paper sheet concerned for some reason between the right side and the left side of the center line of the paper sheet P parallel to the paper feeding direction. As a result, even when the paper sheet P receives the carrying force parallel to the center line, it does not advance straight but moves obliquely.
It is considered that more of multi-feeding of the paper sheets P is caused by sticking state or resistance cause such as coefficient of friction between the uppermost paper sheet P and a second paper sheet P located under the paper sheet for some reason so that two paper sheets are united, and separated from the lower paper sheet P and fed out. It is considered that more of idle feeding of a paper sheet P is caused by sticking state or resistance cause such as coefficient of friction between the paper sheets P for some reason so that the paper sheets are not separated from each other and the paper feed roller runs idle to cause failure in carrying.
Then, in the paper feeder 1 in accordance with the embodiment, the air quantities of the blowing units 2, 2 can be controlled independently of each other, so that the air quantity of the blowing unit 2 on the larger resistance side is increased to accelerate separation of the paper sheet P on this side, and the state of the left and right sides of the paper sheet P is made as uniform as possible to cause the paper sheet P to travel parallel to the paper feeding direction. Thus, slight to serious skewing of the paper sheet P can be corrected.
Further, in the paper feeder 1 in accordance with the embodiment, the air directions of the blowing units 2, 2 are varied independently of each other as described above, so that when the air directions of the respective blowing units are made opposite to each other, a turning force in a desired direction is applied to the paper sheet P to further accelerate separation of the paper sheet P on the larger resistance side, and the state of the left and right sides of the paper sheet P is made as uniform as possible to cause the paper sheet P to travel parallel to the paper feeding direction. Thus, serious skewing of the paper sheet P can be corrected.
Further, in the paper feeder 1 in accordance with the embodiment, the air quantities of the blowing units 2, 2 are made larger than those in the case of slight skewing to cope with multi-feeding and idle feeding, which will cause a serious jam, similarly to the case of the serious skewing.
As shown in
As shown in the columns of “multi-feeding” and “idle feeding” in
As shown in the column “skew (slight)” in
As shown in the upper part of a column “skew (serious)” in
As shown in the lower side of the column “skew (serious)” in
Further, the air quantities of both the blowing units 2 (F, R) remain as initially set, and although an example typically shown in
As shown in
The described information shown in
3. Occurrence of Error and Correction Method in Operating State (
4. General Control Procedure (
Although the above description deals with the adjustment method for the air quantity and the air direction of the blowing units 2 corresponding to the classification of carrying failure with reference to
In the S10 (this means a step 10, and so forth), a user sets paper information such as classification, lightweight paper or heavy paper from a console panel not shown. The paper information, as described above, may be mode information selected on the console panel by the user. Or the kind of the paper sheet may be detected to set the paper information according to the setting information of the paper feed part or a signal of the light transmission quantity from the transmission type paper detecting units 13.
In the S20, the user starts printing. In the S30, according to the preset paper information and an output signal from the transmission type paper detecting units 13 (F, R), the air quantity and the air direction of the blowing units 2 (F, R) are set based on the information stored in the memory as shown in
In the S70, skewing (slight or serious) is detected as shown in
As a result of determining the skew amount in the S70, when it is determined that skewing does not occur and the occurrence of a jam is not found (“no jam” in the S70), the operation is ended in the S90 on determining that printing for a designated number of paper sheets is ended in the S80 (YES, in the S70). When it is determined that printing for the designated number of paper sheets is not ended (NO, in the S70), the procedure returns to the S50 to restart the printing operation beginning with feeding one paper sheet.
When it is determined that slight skewing, which will not cause a jam, occurs (“slight skew” in the S70) in the S70, corresponding information of the memory in the control unit is updated with the information acquired by the transmission type paper detecting units 13 (F, R) in the S100, and the air quantity and air direction of each blowing unit 2 (F, R) are set based on the information updated in the S30.
As a result of skew amount determination in the S70, when it is determined that skewing occurs and a jam occurs (“jam” in the S70), that is, when serious skewing, which will cause a jam, multi-feeding or idle feeding is detected, the corresponding information of the memory in the control unit is updated based on the information acquired by the transmission type paper detecting units 13 (F, R) in the S110. In the S120, the paper feeding operation and the blowing operation of the blowing units 2 (F, R) are stopped, and in the S130, a jam error warning is displayed on a display unit not shown. When the jam is cleared (YES, in the S140), the procedure returns to the S20 to again start printing. When the jam is not cleared (NO, in the S140), the jam error warning is continuously or repeatedly displayed on the display unit (S130).
In the described embodiment, the pair of blowing units 2, 2 (or two pairs of blowing units) are provided on the F side (front side) and the R side (rear side) in the paper feeder 1. In other words, the units are provided close to the left side edge and the right side edge of the paper sheet P with respect to the center line in the width direction of the paper sheet P. However, the blowing units 2, 2 can be controlled independently of each other at least in air quantity, and also it will be sufficient that the units are located to blow the air to the paper sheet P from the symmetrical positions. For example, right and left units may be provided close to the leading end of the paper sheet P, not limited to the right and left side edges.
Although the air directions of the blowing units 2, 2 are changed to prevent serious skewing in the embodiment, it is not necessary that setting of the air direction is limited especially to the embodiment as long as stronger air is blown against an area of the paper sheet P where sticking or increase in friction is occurring, or rotation is given to the paper sheet P so that the area concerned easily separates.
Further, the present embodiment shows two methods for correcting serious skewing, one in which the air quantity of the blowing units 2, 2 is increased and one in which different air directions are set. Especially in the case of serious skewing, both of these methods may be combined for use. Similarly, in order to cope with multi-feeding and idle feeding which will cause a serious jam, a method of setting different air directions may be used alone, or together with the method of increasing the air quantity.
A list is given below of reference letters and numerals of the components in the present embodiment used in reference to the drawings of the specification.
- 1. Paper feeder
- 2. Blowing unit (F, R)
- 3. Paper feed table
- 6. Paper feeding unit
- 8. Side fence
- 11. Air direction control plate
- 13. Transmission type paper detecting unit (F, R)
- P. Paper sheet
Claims
1. A paper feeder, comprising:
- a paper feed table on which paper sheets are stacked;
- a paper feed roller, which is provided at a predetermined position above the paper feed table and driven in contact with an upper surface of an uppermost paper sheet of the paper sheets stacked on the paper feed table to feed the uppermost paper sheet in a paper feeding direction;
- a pair of paper detecting units, which is provided on a downstream side in the paper feeding direction with respect to the paper feed roller to respectively detect two end parts in a paper width direction of the paper sheet fed in the paper feeding direction;
- a pair of blowing units, which is provided along the paper width direction; and
- a control part controlling the pair of blowing units independently so that the pair of blowing units is controlled to be different in air quantity based on a difference in paper detection timing between the pair of paper detecting units to blow air below the uppermost paper sheet.
2. The paper feeder according to claim 1, further comprising: a transmission paper detecting unit provided on the downstream side of the paper feed roller as the paper detecting unit, wherein the air quantity of the pair of blowing units is increased based on a light receiving quantity of the transmission paper detecting unit to control at least one of paper multi-feeding and idle feeding to be corrected.
3. A paper feeder, comprising:
- a paper feed table on which paper sheets are stacked;
- a paper feed roller, which is provided at a predetermined position above the paper feed table and driven in contact with an upper surface of an uppermost paper sheet of the paper sheets stacked on the paper feed table to feed the uppermost paper sheet in a paper feeding direction;
- a pair of paper detecting units, which is provided on a downstream side in the paper feeding direction with respect to the paper feed roller to respectively detect two end parts in a paper width direction of the paper sheet fed in the paper feeding direction;
- a pair of blowing units, which is provided along the paper width direction; and
- a control part controlling the pair of blowing units independently so that the pair of blowing units is controlled to be different in air direction based on a difference in paper detection timing between the pair of paper detecting units to blow air below the uppermost paper sheet to thereby correct skewing of the fed-out paper sheet.
Type: Grant
Filed: Aug 23, 2011
Date of Patent: Feb 5, 2013
Patent Publication Number: 20120056367
Assignee: Riso Kagaku Corporation (Tokyo)
Inventor: Yoshihisa Morita (Tokyo)
Primary Examiner: Jeremy R Severson
Application Number: 13/137,510
International Classification: B65H 7/02 (20060101);